Stereoscopic camera



. 1O Sheets-Sheet 1 Filed July s, 1950 AVERAGE m w m y a m 2 W 0/0 w w 4' m 1| I llll w H? 1 fi s a m w m 6% v/ 9- 4 v f w m 5 4 0 2 l. I 4 III 2. 3 L 1 1 0 4 /7 4 w M 4 Gordon N. Smiih BY June 8, 1954 G. N. SMITH STEREOSCOPIC CAMERA l0 Sheets-Sheet 2 Filed July 3, 1950 INVENTOR Gordon /V. Smith Na K June 8, 1954 G. N. SMITH STEREOSCOPIC CAMERA 1O Sheets-Sheet 3 Filed July '3, 1950 June 8, 1954 G. N. SMITH STEREOSCOPIC CAMERA l0 Sheets-Sheet 4 Filed July 5, 1950 INVENTOR. Gor'don N. Gmz'zh June 8, 1954 G. N. SMITH STEREOSCOPIC CAMERA Filed July 3, 1950 10 Shegts-Sheet 5 mmm kmw wwm Ohm vmm

INVENTOR. Gordon N. Smith June 8, 1954 ca. M SMITH 2,680,400

STEREOSCOPIC CAMERA Filed July 3, 1950 10 Sheets-Sheet 6 June 8, 1954 e. N. SMITH 2,680,400

STEREOSOOPIC CAMERA Filed July 3, 1950 10 Sheets-Sheet 7 Illl - INVENTOR. Gqr'dor'l N. Smizh June 8, 1954 G. N.' SMITH 2,680,400

STEREGSCOPIC CAMERA Filed July 3, 1950 1Q Sheets-Sheet 8 25 IN VEN TOR.

259 Gordon N. SmL'If/I June 8, 1954 Filed July 3, 1950 G. N. SMITH STEREOSCOPIC CAMERA 10 Sheets-Sheet 9 v 'INVENTOR. 60/ 0 017 /V. Smz'fh Patented June 8, 1954 STEREOSCOPIC CAMERA Gordon N. Smith, Portland, Oreg., assignor to Sawyers Inc., Progress, reg., a corporation of Oregon Application July 3, 1950, Serial No. 171,863 18 Claims. (Cl. 95-18) My present invention relates to stereoscopic cameras and to certain improvements in camera mechanisms, particularly relating to stereoscopic cameras but in most instances being applicable to conventional cameras for taking single exposures.

The principal object of the present invention is to provide a camera capable of producing stereoscopic transparencies for use in viewing or projecting devices. While not necessarily limited thereto, the invention is particularly adapted for producing stereoscopic pairs of transparencies which may be mounted in discs adapted to be rotated step by ste in a stereoscopic viewing device such as disclosed in the patent to Gruber, No. 2,189,285, or to be rotated step by step in a projecting device designed to project enlarged single or paired images on a distant screen. Also, while not necessarily limited thereto, the invention is particularly adapted to produce stereoscopic pairs of transparencies in a film strip of such relative dimensions that each transparency may be surrounded by a marginal portion including an elongated tab at one end whereby the transparencies may be mounted in a pocketed reel such as disclosed and claimed in the copending application of Kurz, Serial No. 23,113, filed April 24, 1948, now Patent No. 2,571,584, issued October 16, 1951, thus enabling the owner of the camera to produce his own reels of transparencies.

A further object of the present invention is to provide a camera which produces exposures in a film strip, the camera being of such character as to produce two rows of exposures longitudinally of one film strip. Correlated with the foregoing object is the object of providing film strip feeding means adapted to feed a strip of film step by step between exposures in one direction while taking the frst row of exposures and step by step in the opposite direction while taking the second row of exposures in order that the completely exposed film strip will be rewound into the cartridge in which it was originally contained when completely exposed.

A further object of the present invention correlated with the foregoing is to provide film advancing mechanism capable of moving film in either direction, by the use of one manual knob, while maintaining the film in taut condition between a cartridge and take-up spool regardless of the increasing or decreasing effective diameter of the roll of film on the shaft of the cartridge or the shaft of the take-up spool.

- A further object of the present invention correlated with the foregoing is to provide a camera in which the lens barrel assembly and associated light tunnel is movable vertically between positions for taking one row of exposures and the other row of exposures. Correlated with the foregoing is the object of providing a camera including overlapping pressure pads designed to give proper film pressure over the rear ends of the light tunnels regardless of the relative position of the lens assemblies.

A further object of the present invention is to provide means whereby a film may be advanced step by step for any predetermined, variable distance in accordance with the preselected setting of a limit mechanism. In order that films of various lengths may be employed in the same camera, the limit mechanism may be set to prevent further step-by-step movement of the film in the first direction at the end of a predetermined number of feeding steps, and to prevent movement of the film in either direction until shifting of the lenses to the position for taking the second row of exposures has been accomplished. Such shifting simultaneously shifts certain portions of the film advancing mechanism to prohibit further advancing movement in the first direction and permit step-by-step retraction of the film in the second direction.

A further object of the present invention is to provide means in a camera for permitting variable exposures by use of a single pair of shutter blades movable past the lens system in either of the two selectable positions. In combination therewith the present invention provides shiftable means including a selector plate parallel with and adjacent to a pair'of shutter blades for permitting the passage of light through the lens systems in either of the two selectable positions thereof.

A further object of the present invention is to provide shutter operating mechanism including a variable shutter release and escapement device for varying the length of time of exposure between maximum and minimum infinitely variable limits of high speed exposures, or to permit bulb exposures.

A further object of the present invention is to provide means for synchronizing the action of a fiash bulb igniting mechanism with the movement of the shutter blades. Correlated with the foregoing, the present invention comprises means for preventing the accidental ignition of a flash bulb prior to release of the shutter blades.

A further object of the present invention is to provide improved. shutter blade timing mechanism in combination with improved shutter blade and timer resetting mechanism.

A further object of the present invention is to provide improved means for eifecting the setting of the variable exposure timing mechanism and variably adjustable iris diaphragm mechanism through the provision of a built-in exposure indicating device such as disclosed in my copending application, Serial No. 74,156, filed February 2, 1949, now Patent No. 2,557,478, issued June 19, 1951.

A further object of the present invention is to provide an improved cable connecting means for permitting actuation of the camera through a cable release device.

A further object of the present invention is to provide means for positivel shifting a pair of lens barrel assemblies and associated light tunnels from one to another selectable position in unison with each other and to lock the same in the selected positions.

A further object of the present invention is to provide improved means whereby a wide film strip may be provided with a narrow leader extension adapted to be inserted in a slot in a takeup spool without requiring winding of the narrow leader strip past the rear surfaces of the light tunnels prior to closing the camera casing, in order that a rigid loading sequence need not be observed. As a comment on the foregoing, it is to be observed that a rigid loading sequence is desirable in order that a person may avoid at tempting to take exposures on the exposed leader strip, but the camera will operate even though this measure should be overlooked. A further object of the present invention is to provide an improved film cartridge loading arrangement whereby the cartridge engaging and driving spindle remains fixed in position and the cartridge is inserted longitudinally and coaxially of the cartridge engaging and driving spindle, the case of the camera including means for permitting loading of the cartridge through the bottom of the camera when the rear cover is open.

A further object of the present invention is to provide improved film advancing mechanism including a combination of slip and ratchet clutches.

A further object of the present invention is to provide an improved view finder for a camera including a spirit level to assure leveling of the camera while exposures are being taken.

A further object of the present invention is to provide a steresocopic camera having shiftable picture taking mechanism including a pair of lenses, each of which is in alignment with a spaced portion of one of a pair of filter mounts adapted for reception of standard filters.

A further object of the present invention is to provide a camera having a shiftable lens assembly, which may be shifted from one to another position of operation in order to expose spaced portions of a film, in combination with means for mounting a standard filter cap in such relation as to filter the light passing through the lens in either position thereof. 4

A further object of the present invention is to provide a haze filter and dust seal combination as a normal part of the camera, which part may be easily removed to permit cleaning of the inner surface of the haze filter.

A further object of the present invention is to provide a stereoscopic camera with means for identifying the right and left exposures, and the tops and bottoms of both exposures, such identiiying means also serving to orient the exposures for insertion of the stereoscopic pairs in a mount.

Certain aspects of the present invention not herein claimed are variations of apparatus fully disclosed and claimed in my aforesaid Patent No. 2,557,478 and in my copending patent applications, Serial Nos. 754,961 and 754,963, filed June 16,. 1947, the former now issued as Patent No. 2,553,015, dated May 15, 1951, and the latter now issued as Patent No. 2,515,272, dated July 18, 1950. Certain portions of the present apparatus relating to photofiash synchronizing means and film feeding means are disclosed and claimed in the copending divisional applications hereof, Serial Nos. 288,594 and 288,595, respectively, both filed May 19, 1952.

The objects and advantages of the present invention may be more fully ascertained by inspecticn of the following specification taken in connection with the accompanying drawings wherein like numerals refer to like parts throughout, while the features of novelty will be more distinctly pointed out in the appended claims.

In the drawing, Fig. 1 is a front view of a stereoscopic camera made in accordance with the present invention;

Fig. 2 is a. plan view of the camera disclosed in Fig. 1;

Fig. 3 is an end view taken from the left end of Fig. 2;

Fig. 4 is an end view taken from the right end of Fig. 2;

Fig. 5 is a partial rear view of the frame illustrating a portion of the film feeding mechanism;

Fig. 6 is a partial view taken substantially along line 5i5 of Fig. 5;

Fig. 7 is a view in elevation of the inside of the hinged rear cover illustrating the pressure pads and film guiding means, the cover being illustrated as it would appear when removed and turned over about its longitudinal axis;

Fig. 8 is a sectional view looking down across the rear cover, the view being taken substantially from the plane of line iZ- J of Fig. '7;

Fig. 9 is a partial view of the inside of the front cover and the portions of the mechanism mounted thereon including a selector plate, a pair of shutters and a flash switch device, the selector plate being in position to permit exposure of the lower row of exposures;

Fig. 10 is a view looking up on the mechanism disclosed in Fig. 9, the view being taken from the direction indicated by the line i@i ii of Fig. 9;

Fig. 11 is a partial view looking at the front of the frame and mechanism mounted thereon including the shiftable lens assemblies, portions of the film advancing mechanism, the shutter reset latching mechanism and the shutter timing mechanism, the lenses being elevated to take the upper row of exposures, and the shutter mechanisms being cocked;

Fig. 12 is a partial, sectional view looking down substantially along the plane of the line i2-|2 of Fig. 11;

Fig. 13 is a partial, sectional view looking down substantially along the line it ill of Fig. 11;

Fig. 1 1 is a. sectional view looking down from the plane of the line i l i i of Fig. 11 and illustrating the timer cam and escapement mechanism on an enlarged scale;

Fig. 15 is a view in elevation of the selector plate alone;

Fig. 16 is a view in elevation of the inner shutter alone when the inner shutter is released, the selector plate and inner shutter being in vertical alignment corresponding to the superimposition thereof illustrated in Fig. 9;

Fig. 17 is a view in elevation of the outer shutter alone in the released position corresponding to Fig. 9;

Fig. 18 is a partial view, on an enlarged scale, of the flash synchronizer switch when the shutters are cocked, illustrating the safety feature thereof for preventing accidental discharge of a flash bulb;

Fig. 19 is a View corresponding to Fig. 18 with the parts in the relative positions assumed when the trip has been almost entirely actuated, immediately prior to release of the shutter blades;

Fig. 20 is a horizontal section showing the cable release pin with a release cable attachment associated therewith, the view being taken substantially along line 20-26 of Fig. 1 and being on an enlarged scale;

Fig. 21 is a partial sectional view illustrating the means for associating a flash gun with the camera and the contact connecting the flash gun to the flash switch taken substantially along line 2 l2l of Fig. 2 and being on an enlarged scale Fig. 22 is a view looking up at the hinged end of the case with the cover opened to sufficient extent to permit the insertion of a cartridge and the association of the film strip leader with the take-up spool;

Fig. 23 is a schematic view of a portion of a film strip illustrating the exposur sequence for stereoscopic pairs;

Fig. 24 is a somewhat schematic View in elevation illustrating a film leader strip of narrow width associated with one of the light tunnels;

Fig. 25 is a vertical section taken substantially along line 2525 of Fig. 24;

Fig. 26 is a vertical section taken through the view finder and spirit level substantially along line 2626 of Figs. 2 and 21;

Fig. 27 is a partial view of the back of a pocketed reel formed for reception of transparencies produced by the camera; and

Fig. 28 is an enlarged vertical section taken substantially along line 28-28 of Fig. 1.

For simplicity each portion of the camera is described under an appropriate subheading.

Frame and casing The camera comprises an interior frame generally designated by the numeral ii]. The frame is enclosec. within a casing consisting of four separable parts including a front cover H which is secured to the frame and a rear cover [2 which is hingedly connected to the front cover and bottom at [3 and held in closed relation thereto by a tongue M at the end opposite the hinged end, the tongue having a rectangular opening l5 therein adapted to snap over a rectangular lug [G on the front cover, the lug being disposed within a rectangular depression I? to prevent accidental release of the rear cover. When it is desired to load or unload the camera the resilient tongue M is released by inserting th fingernail between the bottom of the depression I! and the tongue [4 whereupon the rear cover may be swung to one side about the hinge IS. The top of the case comprises a part It which is secured to the top of the frame, and the bottom of the cas is provided by a part it which is secured to the bottom of the frame it. It is to be appreciated that the portions ii, l3 and 19 are detachably secured to the frame in any convenient manner, the means for securing the same being in part relatively inaccessible so as to pre vent disassembly of the camera except in thehands of an experienced, trained person. Not all of the attaching means are illustrated, but sufficient are herein illustrated to disclose the principal features thereof. For example, in Fig. 9 there are illustrated a pair of screw receiving bosses 29 adjacent th vertical flange 33 and which are adapted to receive screws passing through an end flange (not illustrated) of the frame H), the heads of the screws being accessible when the rear cover I2 is swung open. Also, in Fig. 11 a pair of openings 2| are illustrated in an end flange projecting from the opposite end of the frame l0 through which screws pass into threaded screw receiving bosses (not illustrated) in the opposite end of the front cover II, the heads of the screws therein mounted being accessible when the rear cover [2 is swung open.

The top cover i8 is interlocked with the front cover ll so as to prevent leakage of light and must be removed before the front cover can be removed even though the screws heretofore mentioned have been removed. The top cover is held in place in part by a pair of screws having their heads engaged beneath pairs of lugs 22 (Fig. 9) projecting inwardly from the front cover II, and engaged with threaded openings (not shown) in the bottom of the top cover, the screws being accessible by means of long, narrow screw-drivers inserted from the bottom alongside of the shutters after the bottom cover has been removed. The top cover is also held in place in part by screws (not shown) passing downward through the top cover into threaded openings in the frame as indicated at 23 (Fig. 12). Therefore, in order to remove the top cover the bottom cover has to be removed first, the bottom cover being attached by means of screws 24 (Fig. 22) accessible from the outside of the bottom cover, passing through openings therein, and being received in threaded openings 25 in the rear of the frame Hi (Fig. 13) and threaded openings 26 (Fig. 10) in the bottom edge of the front cover, the openings 26 extending into lugs 2'! (Fig. 9). It is apparent from the foregoing that even though th bottom cover should be removed it would require expert knowledge completely to remove the casing to expose all of the mechanism.

Light is excluded from the interior of the easing by light-trapping, interfltting flanges on the casing parts and the frame. For the most part description of such interfitting flanges will be omitted, since the provision thereof is stand-- ard practice well known in the art. However, it is to be remarked that the frame it! is preferably provided with a groove 39 (Figs. 5 and 11) in which a flange 3! (Fig. 7) on the hinged rear cover fits, and that the hinged rear cover is also provided with a flange 32 which fits into a groove provided between adjacent edge portions of the frame and of the bottom cover I9 when the bottom cover is in position. The front cover has an inwardly projecting, vertical flange 33 (Figs. 9 and 10) adjacent the lug Hi. the outer face of which is beveled in order to engage the inner beveled face of a corresponding flange (not shown) on the free end of the hinged rear cover l2. The hinged end of the rear cover comprises a portion 34 (Fig. 8) which is rolled inwardly to provide a holder for a vertical rod having its ends projecting beyond the cover to provide the pintles 35 and 36 of the hinge E3. The upper pintle 35 is receivable in a socket (not shown) in the top cover l8 and the lower pintl'e is receivable in a corresponding socket (not shown) in the bottom cover is. When the bottom cover is removed the hinged rear cover may be swung open and moved downward to disengage the pintle 35 from its socket. A light shield plate 38 is mounted adjacent the pintle-retaining portion 34, the two being held together by rivets the enlarged heads of which project into the cartridge receiving space to form a spaced pair of locating pads to prevent the cartridge from more than a limited amount of relative freedom in the cartridge receiving space. The end of member 38 adjacent the pintle is spaced from the portion 34 to provide a vertical groove idtinto which a flange on the adjacent end of the front cover (not shown) projects when the rear cover is swung shut. The flange 32 is of relatively narrow width across the rear of the camera, but adjacent the hinged end the flange is enlarged to provide a cartridge supporting shelf 41! which fits into a continuation of the groove between the bottom cover and the bottom edge of the frame when the rear cover is swung shut in order that a cartridge, indicated in schematic outline in Fig. 8, may be supported in the cartridge receiving space 52 (Figs. 5 and 13) in the frame iii, the upper end and inner surface of the cartridge receiving space being formed in the frame itself. The bottom cover is provided with a large open notch 43 (Figs. 3 and 22) forming a continuation of the cartridge space whereby a cartridge may be inserted longitudinally from the bottom of the camera when the rear cover is swung open. The upper end of the cartridge is thus moved longitudinally into en gagement with the cartridge engaging and driving spindle Q4 (Figs. 5 and 6) which is provided with a forked lower end in accordance with usual practice. After the cartridge is inserted, and prior to closing of the hinged rear cover, the film leader strip is stretched across the rear of the frame it and the tip thereof is hooked into a vertical slot as (Fig. 5) in the outer shell 45 of a take-up spool journaled in a take-up spool space ll at the opposite end of the frame. The shell 45 is pressed onto an enlarged diameter of a hub portion it which may be manually rotated as will appear so that the film may be wound onto the take-up steel or released therefrom in accordance with the manipulation of a film advancing knob lit. In either direction of movement the film is guided between an upper flange 5! and a lower flange 52 on the frame Ill, movement of the film being effected by a spaced pair of sprockets fixed to a sprocket hub E l and retained in a sprocket recess 55 in the frame Ill. The hub 54 is fixed to a vertical shaft it by means of setscrews 5'5, the shaft projecting through the top of the frame and being fixed to a horizontal, sprocket shaft driving gear 53. When the film strip has been firmly engaged the rear cover may be closed.

Picture sequence that a lower row of approximately '16 mm. ex-

posures may be taken, followed by an upper row of approximately 16 mm. exposures, with clear space between the exposures and between the upper and lower rows so that each exposure may have a margin surrounding the same when out from the film strip to permit insertion of the views in a holding reel such as disclosed in the above-mentioned lurz patent. In order that the upper and lower rows of exposures may be taken, the frame is provided with a spaced pair of light tunnel clearance holes 63 (Fig. 5), one at each side of the sprocket recess, and a spaced pair of light tunnels M are guided by guide posts 2|!) and 2K3, and guide posts its and 2H, respectively, in the clearance holes for movement between upper and lower extreme positions. Each of the light tunnels is provided with an upper, inwardly beveled rail (Fig. 25) and a lower, inwardly beveled rail both rails projecting a few thousandths of an inch beyond the vertical faces of the frame it so that the film surface rides on the accurately machined outer edges of the rails, thus locating the film in exact relation to the lenses Hi.

It will be noted that the open space surrounding hub (Fig. 5) inside of the shell on the take-up spool is of lesser height than the distance between the guiding flanges 5i and 52 but is sufficiently high to provide a slot d5 long enough to accept the relatively narrow film leader ll (Fig. 24.). The beveled inner edges of the rails and (Fig. 25) are provided to prevent the light tunnel rails from catching the edges of the film leader strip when the light tunnels are shifted over the narrow film with the camera back closed. This provision eliminates the necessity for a rigid loading sequence. After the rear cover has been closed and the entire fogged leader portion of the film has been wound past the second light tunnel, the camera may be operated to expose spaced pairs of stereoscopic transparencies as follows.

The centers of the lenses and light tunnels are spaced apart by the average intcrpupillary dis tance of about 65 mm. so that upon the first exposure a pair of stereoscopic transparencies '15 will be produced as seen in Fig. 23, Fig. 23 being a view looking at the back of the film when the film is in the camera. It will be seen that be tween the right and left exposures there is sufficient room for two more exposures to be taken, but the advancement of the film is such that each movement advances the film two-thirds of the distance between the centers of the left and right exposures so that the second exposure produces a stereoscopic pair indicated by the numerals it, there being an unexposed blank between the right exposures of the first and second pairs. The third exposure will, however, occur in such position that none but the second space is wasted. The sequence of transparencies is as follows: Right 1, blantz, Right Left 1, Right 3, Left 2, Right i, and so on. When the proper amount of film has been fed onto the take-up spool, the feeding direction is reversed, the light tunnels raised into position to take the upper row of exposures, and the film rewound onto the cartridge. At the end of this return movement there will be one blank space, as indicated in Fig. 23, between R35 and ltil'.

Film of the character described is usually supplied in cartridges containing sufficient film for twenty 35 frames, and will provide twenty pairs of approximately 16 min. exposures in each of the upper and lower rows, or in cartridges containing sufficient film for thirty-six 35 mm. frames, which will provide thirty-six pairs of approximately 16 mm. exposures in each of the upper and lower rows. The film advancing knob 50 (Fig. 2) is provided with a corresponding plurality of indicia movable past a fixed pointer til on the top of the camera. In order to prevent unwinding of the entire length of film from the cartridge, the film advancing knob may be set at a selected position prior to taking the first exposure as follows:

The hub 48 (Figs. 5 and 6) is loosely journaled upon a central shaft 8i which extends beyond the shell 46 at its upper and lower ends, the lower end being journaled in a socket (not shown) in the bottom cover I5 and the upper end projecting through the top cover H3. The shaft sl is loosely journaled within the hub 43 so that it may be moved longitudinally or rotationally, and the knob 56 is fixed to the shaft by a setscrew 84 (Fig. 1) so as to rest upon the upper end of a collar 85 fixed to shaft ill and slidably and rotationally journaled in a bearing in the upper cover It. The knob is normally maintained against the upper cover by a curved washer spring 86 surrounding the collar 35 and bearing against the lower surface of the upper cover. The spring 86 bears against a film advance stop 90 fixed to the upper surface of a clutch pinion 9| pressed onto the shaft 3!. When the knob all is pulled by a force stronger than the pressure of the spring 86, the pinion BI is slid out of engagement with the teeth of an idler gear 92 loosely journaled on a stub shaft 93 projecting upwardly from the frame. The idler gear 92 is provided with an oppositely disposed pair of upwardly projecting abutment pins 9 3 which normally rest in alignment with the centers of the sprocket gear shaft 56 and the take-up spool shaft 8i (Fig. 6). When the pinion s! is elevated by pulling knob 59 upward, the portion of the stop 99 which might engage one or the other of the pins 94 may be rotated above the tops of the pins so that the take-up knob 50 may be freely rotated to any selected position.

As seen in Fig. 2, the indicia on knob 55 include three boldly indicated indicia numbers, namely 1, 19 and 35, the numeral 1 being directly over the tip of stop 90. When a twenty-exposure-35 film is used, the exposed leader portion is first wound onto the take-up spool by advancing the film strip three times in the manner to be explained; then the knob 5b is elevated and rotated to bring the numeral 19 opposite the indicator 85. Similarly, when a thirty-six-exposure film is used, the numeral 35 is placed opposite the indicator 30. The advancing movement be tween frames is accomplished by manual rotation of the knob which drives the sprocket gear 58 a half revolution through pinion ill and idler gear 92. The gears 5-8 and 92 are provided with eighty teeth and the pinion Qi is provided with one more than half that number, or forty-one teeth, so that stop 9% moves back one tooth toward pin-engaging position during each feeding movement. When nineteen or thirty-five exposures have been made, as the case may be, the numeral 1 comes back to the indicator 3!) at the same time that the stop 9!) arrives in such position as to prevent further winding of the film onto the take-up spool due to the engagement of the stop with one or the other of the abutment pins 2%. The operator then knows that he must shift the light tunnels to the upper position and thereafter rotate the knob to in the opposite direction until the numeral 19 or 35 reaches the indicator again in the reverse direction.

Fig. 23 discloses the picture sequence on atwenty-exposure-35 mm. film strip, it being apparent from examining the right and left exponents that thirty-seven exposures may be made, nineteen in the lower row and eighteen in the upper row. As previously explained, there will be a blank between Right 1 and Right 2, and it will likewise be apparent that there will be a blank between Left 18 and Left 19 since the stop 96 engages the abutment pin or at this point to prevent further advancement of the film in the initial direction. The operator must now elevate the light tunnels and start turning the knob in the opposite direction as indicated by the arrows. Since the film advancing and shutter resetting mechanism are tied together, as will presently appear, no exposures can be taken in the spaces immediately above Right 19 and Left 19, since the film must be advanced in order to reset the shutters after having taken the nineteenth pair of exposures. Accordingly, the twentieth pair of exposures will occur above the eighteenth pair of exposures, then the next advancing movement will cause another blank space to be left since the twenty-first pair of exposures will be above the seventeenth. A careful operator will observe the fact that the index numeral 19 on knob 50 will be opposite the pointer when he takes the thirty-seventh pair of exposures, and will thereafter successively advance film and release the shutters without attempting to take further pictures since the exposed leader portion will now be behind the lenses, thus leaving a blank above the first blank which initially occurred between Right 1 and Right 2. Altogether, on a twentyexposure-35 mm. film strip there will be .six blanks, as clearly shown in Fig. 23. Likewise, in a thirty-six-exposure-35 mm. film strip there will be the same number of blanks and there will be thirty-five pairs of exposures in the lower row and thirty-four pairs of exposures in the upper row.

It is to be appreciated that the knob 50 may be set at any initial position so that if an operator wishes to take eight pairs of exposures, for example, he may set the eighth division on knob 50 opposite the pointer 88 when taking the initial exposure and the stop 9! will come back to one of the abutment pins 94 when the eighth pair is exposed, thus reminding the operator that he has taken the number of exposures he wished to take and to shift the light tunnels and wind film in the opposite direction. Likewise, it is not necessary to continue winding film in the first direction until the entire strip has been exposed even though the knob 5!! has been initially set for such, as reversing movement may be accomplished at any time upon shifting the winding mechanism.

When the film is to be wound out of the cartridge to take the lower row of exposures means are provided to prevent winding of the film in the reverse direction, as will appear, and vice versa.

Film advancing mechanism The knob 5c is rotated counterclockwise (Fig.

-6) to advance the film strip from the cartridge.

Rotation of the take-up spool is achieved through the medium of a spool driving pinion I Eli! (Fig. 5)

l l sprockets 53 which are rotated exactly onehalf of a revolution at each feeding movement, limitation thereof to one-half of a revolution being achieved through means to be described later. The effective diameter of the take-up spool is such that when it is practically empty one revolution will wind up slightly more film than the amount fed forward by the sprockets 53. Therefore, means must be provided to permit the take-up spool to rotate to a lesser extent than the driving pinion I00 in varying degrees as the size of the roll of film upon the shell it increases, the means being described as follows: The hub is of the take-up spool is provided with several steps of increasing diameter, the face of the upper one supporting the pinion Hill. The pinion IDS is loosely journaled upon shaft 8| for relative rotational movement with respect to a disc IEil fixed to the upper one of these steps. On the next lower step of the hub '53 there are loosely journaled a friction pad I09 and a pawl mounting plate I82 which is held in friction contact with the friction pad by a spring washer Ills bearing against the lowest step. The plateii 62 has an upwardly extending, curved arm I04 thereon which anchors one end of a spring Hill, the other end of the spring engaging the free end of a dog It! pivotally mounted on a pin Hit rising from the plate I62. Spring I66 urges dog I01 into engagement with the teeth of the pinion I00 in such manner as to permit clockwise rotation of the pinion I00 independently of the plate I02, but counterclockwise rotation of the pinion IEIEI results in corresponding movement of the plate I92. When the plate I02 is driven counterclockwise the take-up spool will be urged by friction washer I99 to rotate in the direction to wind film thereonto as it is fed forward by the sprockets 53. Since the take-up spool normally tries to wind up more film than is paid out by the sprockets, the friction clutch arrangement provided by the disc :HBI friction pad I09, plate I02 and spring washer I83 permits the take-up spool to slip while the film is constantly maintained in taut condition between the take-up spool and the sprockets.

through the teeth of the idler gear 92, but the dog I Iii! will ride over the teeth of pinion I96 and the plate I82 will rotate more slowly with the take-up spool as it is pulled in the reverse direction by the sprockets 53. The dog and friction clutch prevent the take-up spool from being rotated due to the film trying to straighten itself.

The cartridge engaging spindle 44 is loosely journaled in a sleeve 1 l0 having an annular head I II thereon which is provided with a step on its upper surface loosely journaling a second pawl mounting plate H2, this plate being similar to plate 5 62 but mounted in the reverse direction so that a spring mounting arm portion .1 I3 extends downwardly to anchor one end of a pawl spring H4 which is engaged with a dog i I5 pivotally mounted on a pin I It depending from the plate I I2. A friction washer I I1 is pressed against the upper surface of plate I I2 by a spring washer I I8 held in position by a pin H9 extending transversely through .a hole in the spindle M and resting in a slot I29 in the spring washer so that the washer must rotate when the spindle M is rotated. The sleeve I I0 loosely journals a spindle pinion I25 which constantly meshes with a second idler gear IZt loosely journaled upon a stub shaft Ill extending upwardly from the frame. The gear 52% is provided with eighty teeth, the same number as gears 58 and 92, and the pinion H5 is provided with one more than half that number, or forty-one, teeth as is the case with pinions 9| and IE5).

When the knob is rotated counterclockwise to wind onto the take-up spool film which is being advanced by the sprockets the chain of gears provided across the top of the frame likewise rotates the pinion 22*" in the counterclockwise direction, pinion revolving slightly less than a complete revolution at each semi-revolution of the sprockets 53. Rotation of the spindle M, however, is solely accomplished by the sprockets 53 drawing the film from the cartridge as the dog I If: rides over the teeth of pinion 25, to the least extent when the cartridge is full and to a progressively increasing extent as the cartridge empties. The dog and the friction disc ll prevent excess unwinding.

When the lenses and lig:t tunnels have een elevated and the film is to be wound back into the cartridge, the knob it is turned clockwise so that the pinion 525 and spindle are driven clockwise in the direction to wind film into the cartridge. The dog acts positively to drive the plate H2 in the clockwise direction to the same extent that the pinion is driven but the friction clutch permits the spindle i to slip to increasingly greater extent as the diameter of the roll of film in the cartridge progressively increases.

Film metering and direction of advance control Means are provided directly beneath the gear 53 and the idler gears and 23 whereby rotation in either direction is limited to one-half of a revolution of the sprockets 53 and whereby the film may be drawn out of the cartridge only when the lenses are down and wound back into the cartridge only when the lenses are up. As will be seen in Fig. 12, the sprocket gear shaft extends through one end of a pair of longitudinal slots Kit? in a superimposed pair of longitudinally movable limiting slides i3l, the opposite ends of the slots liifi being guided by the idler gear shaft 93 (Figs. 11 and 12). The ends of the slides 43! adjacent shaft 83 rest upon a shoulder I32 on the shaft and may cant thereabout in the longitudinal direction depending upon the extent to which a spring 33 surrounding shaft is compressed, the spring 133 normally maintaining laterally and upwardly extending wings I34, one on each of the slides 135, up against the lower surface of the sprocket gear Each of the wings Iii-i is successively en aged by one or the other of a pair of stop pins I35 projecting downwardly from gear 58, the pins being diametrically opposed to each other. Each slide is provided with lateral arm itt which engaged by one end of a spring i3! extending toward the take-up spool end of the frame, the

springs being anchored, one to a lug 38 at the back of the frame and one to the upper end of a long light tunnel guide i139 mounted in the front of the frame, the springs tending to retain the slides in superimposed relation with the ends of the slots I36 against the shaft 56 as illustrated in Fig. 12. In order that the spring I33 may operate without interference, it bears against a flange I69 on a sleeve MI surrounding shaft 55, the flange being in contact with the lower slide,

The sides of the slots I30 are outwardly notched as indicated at I44 and. I45, the notches being of suificient size to permit partial rotation of a slide lock I65 on the upper end of a slide locking shaft I61, the slide lock being movable from the position illustrated in full line in Fig. 12 to the position illustrated in dash line in the same figure. When the lock is partially rotated out of longitudinal alignment with the gear train shafts so as to engage the shoulders provided by the notches Hi l as shown in full line, the slides are both locked against longitudinal movement and the gear train is likewise locked since both of the stops I35 are in engagement with the wings I34 on the slides. locking position when a film advancing movement is being made and the shutters are being cocked, as will be explained later.

When the shutters are tripped to take an ex posure the lock i li is automatically rotated into alignment with the gear shafts as shown in dash lines, thus permitting longitudinal movement of the slides to the extent that the slots I35 extend beyond stub shaft 93 as seen in Fig. 12. Such longitudinal movement occurs when the knob 56 is rotated, whereupon the gear 58 moves either one of the slides through the stop I35 engaging wing I3 3. It will be apparent that the stop {35 will pass beyond the tip of the driven wing I3 3 when the gear 5% has rotated about twenty degrees, whereupon the slide I3I which has been moved from its normal position is snapped back by the spring I31 into position to engage the op posite stop I35 when it has completed half a revolution. At a portion of a revolution of gear 58 beyond this point the shutter and timer re setting mechanism causes lock I 36 to move back to locking position so that rotation of gear 5t will be limited to one-half a revolution. The stop I35 which has moved one of the slides must pass over the wing we of the other slide in order to permit completion of the half revolution; and for this purpose each slide wing is bent upwardly to provide a ramp for the bottom of stop I35 which cams the side wing mitted by the spring 533, the wing I fi l snapping up behind the stop as soon as the half revolution is completed. The slides are now locked be tween the look its and the shaft 55 so that rotation of shaft in either direction is prevented.

In order that film may be drawn out of the cartridge only when the lenses are down and wound into the cartridge only when the lenses are up, shift lock plate (Figs. 11 and 12) is pivotally mounted upon an enlarged lower shoulder of the stub shaft IN on which the idler gear I25 is mounted, the gear having a large lower hub to retain the plate. The shift lock plate 555 is provided. with a pair of stop fingers Iiili which straddle a lug i i? on the frame it. When one of the fingers bears against one side of the lug a vertical flange ills on the shift lock plate is aligned with the end of one of the slides lfiI as seen in full line in Fig. 12, and. when the other finger bears against the opposite side of the lug the flange E58 is aligned with the end of the other slide Iili as seen in dash line in Fig. 12. The plate supports one end of a shift look plate spring arm Hill, made of spring wire, which extends forward beyond the frame is and engages in a rectangular notch IdI in an upwardly extend.-

ing portion of a selector plate Ida (Figs. 9 and 15). The selector plate is movable longitudinally from one extreme position illustrated in full line in Fig. 9, when the lower row of pic- The lock M6 is rotated to the i3 5 downwardly as per- U CJI tures is to be taken, to the opposite extreme position illustrated in dash line in Fig. 9, when the upper row of pictures is to be taken. The spring arm I engages one or the other end or" the slot ISI when the selector plate is being shifted to shift and hold the flange I58 in the desired position. Thus, when film is to be unwound from the spool, one of the slides I3I is blocked, preventing the gear 58 from being turned in the wrong direction so that the knob 59 may be turned only in the counterclockwise direction (Fig. 6). When the lenses are shifted upwardly and the selector plate moved to the opposite extreme position the other slide is blocked and the knob may only be turned in the clockwise direction for rewinding the film into the cartridge while the upper row of pictures is being taken.

Selector plate and lens shift The selector plate I52 mentioned above is a thin sheet metal plate stretching across the front of the camera behind a pair of large windows I10 (Fig. 1), the centers of which are spaced apart approximately the average interpupillary distance of mm., the windows being closed by optically clear glass mounted in slightly projecting window frames I1I, the rims of which are threaded for mounting filter retainers (Fig. 28). The selector plate (Fig. 15) is provided with a lower pair of apertures I12 in horizontal alignment and spaced the same distance as the windows I19, the apertures being of suflicient size to permit the maximum amount of light through similarly spaced lenses 10 when aligned therewith while the lower row of pictures is being taken. The selector plate is also provided with an upper, horizontally aligned, offset, pair of apertures I13 spaced apart by the same amount for registry with the lenses when in the upper position. The selector plate is longitudinally guided by turned steps on a pair of studs I14 (Fig. 9) guiding the upper edge thereof and by turned steps on a pair of studs I 18 (Fig. 10) guiding the lower edge thereof, the upper edge of the plate being retained between the step shoulders- I16 of the studs I14 and a selector plate retainer strip I11 mounted on the studs I14. The lower edge of the selector plate is retained between the step shoulders of the shutter studs I18 and a lower selector plate retainer strip I86, held in place by screws I15, so that the selector plate may be moved longitudinally from a position such that one or the other pair of apertures therethrough is in alignment with the lenses.

Movement of the selector plate is effected through a selector knob I8! on the front of the camera between the windows I10, the knob being provided with appropriate directional arrows and indicia to indicate the direction of rotation of the knob to shift the lenses. The knob is fixed to the end of a shaft I82 which extends through and is journaled in the front cover II. Milled in the shaft is a selector plate shifting pinion I83, the teeth of which are engaged with rack teeth I85 on the lower edge of an elongated slot I86 in the central portion of the selector plate, whereby as the'knob I8I is rotated degrees the pinion and rack longitudinally shift the selector plate. A partial cap I81 covers the lower portion of the front of the knob IBI so that one or the other of the pair of directional arrows thereon will be hidden in order that the operator will be saved confusion and may tell at a glance which direc tion the knob may be rotated.

The inner end of shaft I82 is fixed to a lens shifting lever I90 having a crank pin I9I thereon which extends into a slot I92 (Fig. 11) in a lens shifting yoke I93 extending horizontally across the front of the frame. The opposite ends of the yoke I93 are provided with forks which embrace pins I94 on the adjacent edges of the light tunnels 64, the pins projecting forwardly from lugs on the adjacent forward edges of the tunnels. Each of the pins I94 is also engaged in the outer forked end of an arm of a lens shifting sector gear I95, the gears being pivoted on fixed bosses I96 of the frame I0, the inner adjacent ends of these arms being provided with gear teeth whereby movement of the pins 194 in unison in a vertical direction is assured. A coaxial extension 200 of shaft I82 projects forwardly in position to engage in a journal opening 29! in a plate 232 overlying the meshed sector gears and the shifting yoke and mounted on the frame by a pair of screws 293, so that the inner end of the shaft I82 is rigidly maintained against play. The crank l 9! moves about the curved outer edge 285 of the plate 262 as the crank arm I90 is rotated through 180 degrees.

One of the light tunnels B l is provided with a forwardly projecting guide fork 285 which is fixed to its lower surface and projects laterally to embrace a short guide post 2H! mounted in lugs extending from the front wall of the portion of the frame defining the cartridge receiving space and retained by screw 2! I. The inner end of the opposite side of the light tunnel 6% is provided with a pair of laterally projecting guide sleeves M2 which embrace vertically spaced portions of along guide post BIB mounted in the frame Ill and retained by screw 22 5 (Fig. 12). The opposite side of the other light tunnel is provided with a forwardly and laterally projecting guide fork 2 i5 at its upper front corner which embraces the upper part of the guide post i355 to which the spring till is attached as previously noted. The opposite rear corners of this light tunnel are provided with a pair of guide sleeves 2H3 which project laterally and embrace a guide post Ell fixed in the frame it. Each of the light tunnels is therefore guided on diagonally positioned, vertical posts, each guide tunnel having two portions totally embracing one of the posts and a third diagonally positioned guiding portion partially embracing the other post. This effects a three-point guiding means for precise, easily d easily aligned assemblies. Each ht tunnels is provided with a pair of y projecting upper and lower limiting screws 5 3 which may be adjusted to engage portions of the frame ill to limit vertical movement of the light tunnels in either direction so as to align them o lly with the film exposure areas, thereby props ly fixing the positions of the rows of exposures with respect to the edges of the film as it is being guided between the flanges El and 52 on the frame The end the slot H 2 in shifting yoke I93 in vertical alignment with journal opening 20! is provided with a pair of vertically extending upper and lower detent notches 229 into which the crank pin IQI snaps at the limit of its movement, thereby frictionally locking the light tunnels against accidental displacement from correct positions for taking the two rows of pictures. '1 he yoke B93 is made sufficiently resilient to bow vertically as the crank pin it! attempts to move the tunnels to a greater extent than permitted by screws 2I8. Considerable force is required to spring the yoke arm I93 as pin I9! leaves the detent notches 22B.

Shutters and shutter reset mechanism The shutters are partially disclosed in Figs. 9 and 10 in superimposed relation in released position, and are shown alone in Figs. 16 and 17, offset vertically from each other in the same relative positions occupied in Fig. 9 and in the same relative position with respect to the selector plate 162 illustrated in Fig. 15. The shutters comprise a rear shutter 225 having for the most part a straight upper edge broken only by a spring anchoring tab 226 to which one end of a shutter actuating spring 22'; is fixed, the other end of the spring being anchored to a pin 223 at the end of the front cover I I. The longitudinally straight upper edge of the shutter is guided in guide grooves in the studs l'l l, which are similar to guide grooves in studs l'lil fully illustrated in Fig. 10. One of the lower studs ill; guides a lower longitudinal edge portion 228 of the rear shutter and the other stud Elli fits a slot 230 in the lower portion of the rear shutter. The shaft I82 of the selector plate shifting mechanism passes through a central horizontal slot 234i so that the rear shutter may slide longitudinally from its cooked or set position to the released position as urged by the spring 221. The rear shutter is provided with a horizontally spaced pair of lower apertures 232 having rounded right ends and squared left ends, and an upper pair of apertures 233 of identical shape in vertical alignment therewith. When the rear shutter is cooked the rounded right edges of the apertures register with the selector plate openings ill or Il i, depending upon the position of the selector plate.

The front shutter 235 rests in face-to-face re lation with the rear shutter in the guiding grooves previously described, the straight upper edge being in engagement with both upper guides and the lower edge being provided with a straight portion 23$ for engagement with one lower guide and a slot 23? for engagement with the other lower guide. The front shutter is provided with a longitudinally extending notch near its lower right end into which extends the lower actuating spring the opposite end of which is connected to a pin M5 on the cover 5 i.

The shutters are made of thin spring steel and weigh substantially the same amount, and the springs 22? and 246 are of substantially equal strength, so that when the shutters are released they will move across the camera at substantially the same speed. The rear shutter is provided with a nose portion along its lower half and the front shutter is provided with a nose portion 243 along its upper half, the edges thereof being engageable with a fiber strip 26% mounted at its ends in supports on the cover i 2 so as to be capable of springing slightly to cushion the shock of arresting the shutters at the limit of their travel. The nose portion 2 2?; strikes the upper end of the arresting strip 25 and nose portion 242 strikes the lower end of the strip so as to minimize rebound of both shutters.

The front shutter is provided with a slot 2-35 through which the selector plate shifting shaft extends, and is provided with a single pair of vertically aligned apertures 2 5'! and 2% similar to the apertures 232 and 233 but reversed so as to have squared ends at the right and rounded ends at the left. The distance between the left edges of each pair of openings 332 or 233 is the same as the distance between the right edges of 17 the openings 241 and 248 and the vertical left edge 249 of the front shutter. When the shutters are in released position the vertical edges of apertures 241 and 248 and the edge 249 of the front shutter are at the right of the selector plate apertures 112, as seen in Fig. 9, and all of the apertures in the rear shutter are well beyond the apertures H2 and in approximate alignment with the apertures W3. When the shutters are in cocked position the vertical left edges of apertures 232 and 233 are at the left sides of the apertures H2 and solid portions of the front shutter block the passage of light therethrough.

The shutters are supplied with resetting lugs, 250 and 25I respectively, which are relatively superimposed when the shutters are in released position and when the shutters are in cocked vided with a spaced, vertical edge 255 which is engageable with a primary shutter latch 256. The

front shutter is provided with a single, vertical,

primary latch engaging edge 25'! which is aligned with the edge 255 when the shutters are released as seen in Fig. 9, or cocked as seen in Fig. 13, so

' that both shutters may be held in cocked position by the primary shutter latch 255. The primary shutter latch 256 is released to initiate an exposure and, since the front shutter is held solely thereby, the front shutter will speed across the front of the camera and come to rest with its apertures in alignment with the windows H5. At a time interval subsequent thereto the secondary shutter latch 254 is released so that the rear shutter will speed across the front of the camera and come to rest with its apertures out of line with the windows I113. The time interval between release of the front and rear shutters determines the exposure time during which light passes through the windows, both shutter blade apertures and lenses. For bulb exposures the front shutter is released and comes to rest, in which case the aperture 247 or 2:33 is opposite one of the lenses and the straight edge 249 has cleared the other lens. The rear shutter is held in cocked position with the apertures 232 and 233 in alignment with the lenses so that light may pass through the unrestricted apertures until the desired time has elapsed, whereupon the secondary shutter latch 254 is released to permit the rear shutter to travel to released position, thereby blocking the passage of light to the lenses. When the shutters are reset they travel together in the same relationship illustrated in Fig. 9 and remain in the same relationship in set position so that light is blocked until the next exposure is desired. This structure is essentially the same as that illustrated and claimed in my aforesaid copending application, Serial No. 754,961, now Patent No. 2,553,051.

Both of the shutter latches 254 and 255 are provided with sharply beveled, pointed ends so that when the shutters are released and, swing the latches back the pointed ends will be in position to engage a pair of tongues 258 and 259 which project from the front shutter beyond the rear shutter in spaced relationship to the latch engaging edges 255 and 253 thereon. When the resetting lever is actuated to move the shutters from released to cocked position the tongues force the shutter latches to swing about their pivots, thereby causing the latches to return to their holding positions.

The shutter resetting finger 25 comprises an extension of a resetting lever 255 (Figs 11 and 13) lhe resetting lever 255 is supported upon a timer and resetting mechanism mounting plate 255 which extends horizontally across the lower portion of the frame in a space provided beneath the bottom of the light tunnel clearance holes 53, the plate being supported by suitable mounting means including screws 25? and spacing collars 253 surrounding the same, which screws pass into threaded openings in the bottom of the frame (not shown), a screw 269 at the front which is held in spaced relation to the bottom of the sprocket cavity by a spacer 215, and by a tongue 27!! projecting longitudinally and wedged between a pair of lugs 2'52 projecting forwardly from the outer surface of the cartridge cavity 42. The lever 255 is provided with a slot 275 which is substantially in the shape of a long, narrow ellipse and into which projects a guiding lug 2m comprising the head of a rivet set in plate 255. The end of lever 255 away from the finger 252 is provided with a pair of upwardly projecting, hooked flanges 2?? between which there is an open slot indicated at 2h}. The lever 255 is provided with a depending guide pin 280 Which projects through a longitudinal guide slot 28l in the plate 255, the pin engaging the hooked end of a spring 282, the other end of which is anchored to the screw 255, the spring thus tending to hold the shutter resetting lever 265 in the position illustrated in Figs. 11 and 13 with the lever being maintained against the guiding lug 2%. In this position the hooked flanges 27! are engageahle by one or the other of a pair of driving pins diametrically opposed to each other on an hourglass-shaped cam 2285 fixed to the lower end of the sprocket gear shaft When the sprocket gear is rotated in either direction the pins successively engage one of the hooked flanges 2i? and drive the finger 252 toward resetting position. Engagement of the pins 235 with the flange 2?? will occur throughout the greater part of a half revolution as the lever 255 and finger 252 move the shutter blades to reset position, but when the half revolution of the sprockets is nearly completed the pin 285 will pass through the slot 238, permitting spring 282 to snap the resetting lever back to its initial position in readiness to engage the shutters when released the next time.

Shutter latching and release mechanism ihe hourglass cam 285 (Fig. 13) is in position to engage an end of a driving lever 255 which is journaled on a timer cam hub 253 which, in turn, is journaled in the plate 255, the lever having an oppositely extending end 252. A peripheral groove in hub 253 loosely retains a hairpin driving spring 294 bent around the groove with one end hooked about a floating lever driving pin 255 fixed in the lever end 292. The other end of the hairpin-shaped spring 294 hooks into an ear 291 on a driving lever release pawl 258 which is pivotally mounted on a pivot 299 mounted on the plate 265. The spring is so tensioned as to tend to rock both the pawl 298 and the driving lever 2% counterclockwise (Fig. 13). The driving lever release pawl 293 is provided with a downwardly turned end flange Mill which engages the front edge of the extension 232 of the driving lever to lock the driving lever in the cocked position illustrated in Fig. 13. The release pawl is provided with a downwardly turned flange 305 which is engageable with a release lever 302, also pivoted at 299.

The release lever is normally maintained in the relation shown in Fig. 13 by a spring 303 hooked into the end of a downwardly turned flange te l on the lever and anchored to a suitable portion of the frame (not shown), the spring urging a projection 305 on the release lever against a stop Silt projecting downwardly from the frame id. The release lever is provided with an arm 3M bearing against the surface of plate 2% to keep the lever parallel to the plate. The release lever may be rocked clockwise from the illustrated position by pushing inwardly on a release button 398 in a recess in the front cover and fixed to the end of a release push rod Sill), the rod being slidably guided in the front cover H. The inner end of the rod is bent upwardly at 310 in such fashion as to be engageable in a small opening in the release lever, the connection being such that when the front cover is unfastened from the frame the hooked end 3H] may be disconnected from the release lever in order to permit removal of the front cover. When the release button is pushed inwardly the release lever is rocked clockwise, thus pushing against the fiange 3M on the release lever pawl to rock the release lever pawl clockwise about its pivot 299, thereby removing the flange Sill: from engagement with the front edge of the driving lever and permitting the hairpin spring 2% to move the driving lever counterclockwise.

As soon as counterclockwise motion of the driving lever commences the end edge of the portion 232 engages the outer surface of the flange to lock the driving lever release pawl 298 in releasing position until resetting action is completed, in spite of the fact that the button 382 may have been released to permit the release lever to be returned to its normal position by spring 303.

The driving lever release pawl 2913 is provided with a forked arm Sill which embraces rounded end of a slide lock shaft actuating lever tit fixed to the lower end of the slide look shaft Hi. The lever M6 is in line with the slide lock Mt (Fig. 12) so that when the button 36% is pushed inwardly the slide lock M6 is aligned with the longitudinal grooves I36 in the slides 53!, thus releasing the feeding mechanism as soon as the shutters are tripped. It has been explained that one or the other slide iili will be moved longitudinally during the first few degrees rotation of the sprocket driving gear 58 (as driven by the knob 5i!) and then returned to its initial position by the spring I31. When the driving lever is released the lower end of pin 295 strikes the edge 2% of the plate 266 which acts as a limit. Also, the arm 28f) rocks to a position close to the hourglass cam 2%. During approximately the first quarter turn of the sprockets and cam the lever 298 is rocked clockwise by one of the four curved faces of cam 286. During approximately the first sixty degrees rotation of the hourglass cam the flange 3th! on the release pawl is engaged with the end edge of the extension 292 on the driving lever so that the release pawl is maintained in position such as to hold the lock M6 in the alignment with the slots I30. Following the return of the actuating slide 53! the flange 300 is released, thus permitting the driving spring 294 to snap the release pawl back to the position illustrated in Fig. 13 with the flange 30H acting as a limit, thus immediately rotating the look I46 to the position illustrated in full line in Fig. 12 to prevent further movement of either of the slides iti. When the release pawl 238 is thus snapped back the flange 308 re-engages the front edge of lever arm 292 to hold the driving lever in the position illustrated in Fig. 13 after the cam 286 leaves the arm 29!].

The primary shutter latch 256 is pivotally mounted on plate 256 at 320 (Fig. 13) so as to be capable of swinging from the latching position illustrated to 2. released position in which it bears against a tab 32l struck upwardly from plate 266 (Figs. 3.1 and 13). It is held in latching position by a primary shutter latch pawl 322 pivoted at 323 and urged clockwise by a spring 32 1. A releasing lug 325 on the driving lever 29!) engages a cam portion 326 on the pawl to disengage it from the latch at the proper instant, this instant remaining constantly fixed regardless of the shutter timing. When the resetting lever 2% moves the shutter blades to the reset position, tongues 252i and 259 of shutter blade 235 engage latches 2'56 and 25 i, rotating them counterclockwise to the reset position shown. When tongue 258 ro tates the latch 256 to the reset position, pawl 322 hooks over the latch to bring portion 326 into contact with lug 325 of lever 25. 0.

The secondary shutter latch 25 is pivotally mounted at tit and is held in latching position by a hook 336 (Figs. 11 and 14) on an arm of a floating lever 332 under plate 265. The hook 33l is normally maintained forwardly, as seen in Fig. 14, by a spring 333 anchored to a pin 334 projecting downwardly from plate 268 and hooked over a pin i535 projecting in both directions from the floating lever, the upper end projecting through an opening 336 in plate 255 (Fig. 13) The lower end of pin 335 is rounded (Fig. 11) so as to slide freely over the upper surface of an escapement mounting plate iti held in spaced relation to plate 2% by screws 338, 339 and 340 surrounded by suitable spacer sleeves (Fig. 14). When hook SM is displaced rearwardly from the position illustrated in Fig. 1d the secondary latch 254 is released to permit the rear shutter 225 to move to released position, the latch swinging against pin 33 where it remains in position to be returned by tongue on the front shutter 235 at the next resetting operation. During the resetting action the hook 338 is brought back to bear against the cam face 3 H on the secondary latch, the cam face slightly displacing the hook rearwardly until it can be snapped into holding position by \1 spring 333.

Shutter timing The timer cam shaft 29! extends above the feeding gear trains (Fig. 11) and is provided'with a driver tip 356 which slidably engages in a driving slot (not shown) in a timing adjustment dial 35E (Fig. 2) journaled on the top cover l8. The dial is provided with indicia designating fractions of a second and the Word Bulb, any selected indicia being positionable opposite a fixed pointer 352 on an exposure indicator cover plate 353. As the dial is rotated shaft 29! rotates a timer cam 355 (Figs. 11 and 14) beneath plate 266. The timer cam is provided with a spiral edge 356 and a reduced section 35! on relatively small radius, the 

